I have recently been given a Nikon D7000 as a gift. I have been trying to take pictures of stars on very clear nights. However, I am unable to make the camera capture many of the stars. My eyes seem to be able to see more stars than the camera, which with my past experience with worse cameras shouldn't be the case.

I am using a 30 sec exposure, f/3.8 aperture, 1600 ISO, exposure delay on, 2 second timer, no VR and no zoom.

Any ideas of what I could be doing wrong? Isn't the aperture large enough?

the biggest enemy of night sky photography is ambient light. Make sure you are in the country side or have very little ambient light around (no or very little streetlights, house lights, vehicle lights, etc)
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lalliDec 10 '13 at 5:34

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Can you attach a sample photograph you captured? My guess would be that you need a bit more ISO (I usually use something around F/4, 30s, ISO10000 for star-shots).
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Miljenko BarbirDec 10 '13 at 7:00

I went here to answer your question, and found it had been answered already and then I learnt a lot more myself - thanks everyone
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user24653Dec 11 '13 at 9:07

@thegrayspot: We really need a sample photo to have a basis for reference. In general, when it comes to night sky photography, you should probably aim for higher ISO. Don't be afraid to use ISO 3200 or even higher (if your camera supports it natively). You will also need to boost the exposure in post to really bring out detail.
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jrista♦Dec 11 '13 at 9:27

4 Answers
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Stars don't show up voluntarily on a photo. You need to tweak them a bit using photo editing tools on a computer. Best if you use RAW file format, and RAW-processing software to do this. JPEGs can be tweaked to show more stars, but with a lot less working room and result being of lesser quality.

The likely JPEG image you get with the exposure settings you used might look like this:

With relatively simple tweaking this same image can show up a lot more of stars:

My exposure settings were 25 sec - f/4.0 - ISO 1600, almost the same as yours. At post processing the RAW image I used +1 exposure correction, increased contrast and adjusted brightness curve to turn the first image into the second. It would have been a lot better to expose more to begin with, but this shot is my first ever attempt at photographing stars. I've learned a bit since then. Those images are from my answer to "Capturing the Milky way, what did I do wrong?" question.

Now, two things to pay attention to the next time you try it, up your ISO a bit, at least to 3200 or even 6400. And make sure your lens is in focus for the stars. Autofocus just don't make it, you have to do it manually with Focus Magnifying help in LiveView display.

I can recommend reading about star photography here in Photography SE, starting with questions under [Astrophotography] and [Stars] tag. That's what I've been doing :)

In Nikon DLSRs, including the D7000, there is image-processing software that removes noise and hot pixels, and this software has come to be known as "the star eater" because it interprets isolated bright pixels as noise and removes them or averages them into the background. Isolated bright pixels, of course, are kind of what you want to see when you're photographing stars. Googling nikon "star eater" will turn up lots more information, but here's one place to start: http://nikonites.com/d7000/17053-removing-star-eater-feature-d7000.html#axzz2n67Hv36W .

Digital cameras use sensors that actually have a fixed, intrinsic sensitivity to light. This means that as the total amount of incident light drops, so too does true exposure. Digital cameras get around this by adding configurable ISO levels, which simply boost the electronic signal generated by that incoming light by a certain amount. The only way to truly increase the strength of the signal is to let in more light...and the only way to let in more light is either with a longer exposure, or a larger aperture. Exposure can only go so far without tracking before stars start to "trail", so increasing the size of the aperture is the best option...if you have it.

To maximize the signal level of your image, you need to use the highest ISO you can get away with. If ISO 1600 isn't producing decent results, then increase it to ISO 3200, or even higher if your camera supports it natively, and a higher level doesn't introduce too much read noise.

For the most part, once a modern digital camera gets up to higher ISO levels, noise is dominated by photon shot noise, and read noise is minimal (less than 2-3e-). Regardless of which ISO setting you use, you will have to do further processing in post to maximize the results. You can either use some prodigious noise reduction in post, or you can try to take multiple frames and stack them using some kind of median averaging, to reduce the noise you see at high ISO.

To demonstrate, here is a shot of the summer milky way. The first is the original shot, without any processing, where as the second has been processed. You'll notice the difference in contrast, color, saturation. etc.

While it often doesn't appear so to our eyes, which have an amazing natural ability to adapt to changing ambient light levels (unlike a camera), stars are EXTREMELY dim. They emit the lowest levels of natural light, such that it has long been an intense area of research to develop new technology that is more sensitive to low light levels (i.e. black silicon, which has negligible read noise and has high sensitivity to the extremely dim light of stars.)

Faster lenses can be a huge bonus. You should try to find the sharpest f/2.8 or faster lenses possible for your astrophotography. Samyang lenses, which also sell under the name Rokinon and a number of others, have excellent sharpness from corner to corner, and have apertures as fast as f/1.4 for some of the more popular wide angles (14mm and 24mm, for example.) If you take your output size into account, you may be able to expose for longer as well. The images above were exposed for 30 sec. @ f/2.8 ISO 1600, and at full size, they exhibit a small amount of star trailing. Stars look like natural points of light scaled down for presentation here on the web, and I could have probably gotten away with 45-50 seconds or more worth of exposure time. If you only ever share your photos online at 1024 pixels wide, you might try exposing for longer, and not worry about the slight startrailing that occurs.